/*!
 * @file        apm32f0xx_usb.h
 *
 * @brief       This file provides all the USB driver functions
 *
 * @version     V1.0.0
 *
 * @date        2025-07-07
 *
 * @attention
 *
 *  Copyright (C) 2023-2025 Geehy Semiconductor
 *
 *  You may not use this file except in compliance with the
 *  GEEHY COPYRIGHT NOTICE (GEEHY SOFTWARE PACKAGE LICENSE).
 *
 *  The program is only for reference, which is distributed in the hope
 *  that it will be useful and instructional for customers to develop
 *  their software. Unless required by applicable law or agreed to in
 *  writing, the program is distributed on an "AS IS" BASIS, WITHOUT
 *  ANY WARRANTY OR CONDITIONS OF ANY KIND, either express or implied.
 *  See the GEEHY SOFTWARE PACKAGE LICENSE for the governing permissions
 *  and limitations under the License.
 */

/* Define to prevent recursive inclusion */
#ifndef __APM32F0XX_USB_H
#define __APM32F0XX_USB_H

/* Includes */
#include "apm32f0xx.h"

/** @addtogroup APM32F0xx_StdPeriphDriver
  @{
*/

#if defined(USBD)
#if defined (USB_DEVICE)

/** @addtogroup USB_Driver USB Driver
  @{
*/

/** @defgroup USB_Macros Macros
  @{
*/

#define USBD_PMA_ADDR               (USBD_BASE + 0x400)
#define USBD_PMA_ACCESS             1
#define USBD_BUFFTB_ADDR            0x0000

/**@} end of group USB_Macros*/

/** @defgroup USB_Enumerations Enumerations
  @{
*/

/**
 * @brief    USB Interrupt definition
 */
typedef enum
{
    USBD_INT_L1REQ      = BIT7,
    USBD_INT_ESOF       = BIT8,
    USBD_INT_SOF        = BIT9,
    USBD_INT_RST        = BIT10,
    USBD_INT_SUS        = BIT11,
    USBD_INT_WKUP       = BIT12,
    USBD_INT_ERR        = BIT13,
    USBD_INT_PMAOU      = BIT14,
    USBD_INT_CTR        = BIT15,
    USBD_INT_ALL        = 0xFF00,
} USBD_INT_T;

/**
 * @brief   USBD Endpoint register bit definition
 */
typedef enum
{
    USBD_EP_BIT_ADDR     = (uint32_t)(BIT0 | BIT1 | BIT2 | BIT3),
    USBD_EP_BIT_TXSTS    = (uint32_t)(BIT4 | BIT5),
    USBD_EP_BIT_TXDTOG   = (uint32_t)(BIT6),
    USBD_EP_BIT_CTFT     = (uint32_t)(BIT7),
    USBD_EP_BIT_KIND     = (uint32_t)(BIT8),
    USBD_EP_BIT_TYPE     = (uint32_t)(BIT9 | BIT10),
    USBD_EP_BIT_SETUP    = (uint32_t)(BIT11),
    USBD_EP_BIT_RXSTS    = (uint32_t)(BIT12 | BIT13),
    USBD_EP_BIT_RXDTOG   = (uint32_t)(BIT14),
    USBD_EP_BIT_CTFR     = (uint32_t)(BIT15)
} USBD_EP_BIT_T;

/**
 * @brief   Endpoint buffer type
 */
typedef enum
{
    USBD_EP_BUFFER_SINGLE,
    USBD_EP_BUFFER_DOUBLE,
} USBD_EP_BUFFER_T;

/**
 * @brief   Endpoint status
 */
typedef enum
{
    USBD_EP_STATUS_DISABLE,
    USBD_EP_STATUS_STALL,
    USBD_EP_STATUS_NAK,
    USBD_EP_STATUS_VALID,
} USBD_EP_STATUS_T;

/* Endpoint register mask value default */
#define USBD_EP_MASK_DEFAULT     (USBD_EP_BIT_CTFR | USBD_EP_BIT_SETUP | USBD_EP_BIT_TYPE | USBD_EP_BIT_KIND | USBD_EP_BIT_CTFT |USBD_EP_BIT_ADDR)

/**
 * @brief   USB endpoint type
 */
typedef enum
{
    EP_TYPE_CONTROL,
    EP_TYPE_ISO,
    EP_TYPE_BULK,
    EP_TYPE_INTERRUPT
} USB_EP_TYPE_T;

/**
 * @brief   USBD Endpoint type for register
 */
typedef enum
{
    USBD_REG_EP_TYPE_BULK,
    USBD_REG_EP_TYPE_CONTROL,
    USBD_REG_EP_TYPE_ISO,
    USBD_REG_EP_TYPE_INTERRUPT
} USBD_REG_EP_TYPE_T;

/**
 * @brief   USB endpoint direction
 */
typedef enum
{
    EP_DIR_OUT,
    EP_DIR_IN
} USB_EP_DIR_T;

/**
 * @brief   USB speed
 */
typedef enum
{
    USB_SPEED_HSFSLS,
    USB_SPEED_FSLS,
} USB_SPEED_T;

/**
 * @brief   USB device endpoint id
 */
typedef enum
{
    USBD_EP_0,
    USBD_EP_1,
    USBD_EP_2,
    USBD_EP_3,
    USBD_EP_4,
    USBD_EP_5,
    USBD_EP_6,
    USBD_EP_7,
} USBD_EP_ID_T;

/**@} end of group USB_Enumerations*/

/** @defgroup USB_Structures Structures
  @{
*/

/**
 * @brief USB device endpoint information structure
 */
typedef struct
{
    uint8_t             epNum;
    uint8_t             epDir;
    uint8_t             epType;
    uint8_t             stallStatus;

    uint8_t             dataPID;
    uint32_t            mps;
    uint16_t            txFifoNum;

    uint16_t            pmaAddr;
    uint16_t            pmaAddr0;
    uint16_t            pmaAddr1;
    
    USBD_EP_BUFFER_T    bufferStatus;
    uint8_t*            buffer;
    uint32_t            bufLen;
    uint32_t            bufCount;
    
    uint32_t            dbBufferLen;
    uint8_t             dbBufferFill;
} USBD_ENDPOINT_INFO_T;

/**
 * @brief USB device init structure definition
 */
typedef struct
{
    uint32_t            lpmStatus;
    uint32_t            lowPowerStatus;     /*!< Low power mode status */
    uint32_t            sofStatus;          /*!< SOF output status */
    uint32_t            ep0MaxPackSize;
    uint32_t            devEndpointNum;     /*!< USB device endpoint number */
    uint32_t            speed;              /*!< USB core speed */
    uint8_t             batteryStatus;      /*!< BACKUP BAT status */
} USBD_CFG_T;

/**@} end of group USB_Structures*/

/** @defgroup USB_Functions Functions
  @{
*/

void USBD_Enable(USBD_T *usbx);
void USBD_Disable(USBD_T *usbx);
void USBD_EnablePullUpDP(USBD_T *usbx);
void USBD_DisablePullUpDP(USBD_T *usbx);
uint8_t USBD_ReadBESL(USBD_T *usbx);
void USBD_EnableLPM(USBD_T *usbx);
void USBD_DisableLPM(USBD_T *usbx);
void USBD_EnableAckLPM(USBD_T *usbx);
void USBD_DisableAckLPM(USBD_T *usbx);
void USBD_ConfigEP(USBD_T *usbx, USBD_ENDPOINT_INFO_T *ep);
void USBD_ResetEP(USBD_T *usbx, USBD_ENDPOINT_INFO_T *ep);
void USBD_EP_SetAddr(USBD_T *usbx, uint8_t epNum, uint8_t addr);
void USBD_EP_SetType(USBD_T *usbx, uint8_t epNum, USBD_REG_EP_TYPE_T type);
void USBD_EP_SetKind(USBD_T *usbx, uint8_t epNum);
void USBD_EP_ResetKind(USBD_T *usbx, uint8_t epNum);
void USBD_EP_ResetTxToggle(USBD_T *usbx, uint8_t epNum);
void USBD_EP_ResetRxToggle(USBD_T *usbx, uint8_t epNum);
void USBD_EP_ToggleTx(USBD_T *usbx, uint8_t epNum);
void USBD_EP_ToggleRx(USBD_T *usbx, uint8_t epNum);
void USBD_EP_ReadPacketData(USBD_T *usbx, uint16_t pmaBufAddr, uint8_t* rBuf, uint32_t rLen);
void USBD_EP_WritePacketData(USBD_T *usbx, uint16_t pmaBufAddr, uint8_t* wBuf, uint32_t wLen);
void USBD_EP_SetTxStatus(USBD_T *usbx, uint8_t epNum, USBD_EP_STATUS_T status);
void USBD_EP_SetRxStatus(USBD_T *usbx, uint8_t epNum, USBD_EP_STATUS_T status);
void USBD_EP_SetTxRxStatus(USBD_T *usbx, uint8_t epNum, USBD_EP_STATUS_T txStatus, USBD_EP_STATUS_T rxStatus);
uint16_t USBD_EP_ReadStatus(USBD_T *usbx, uint8_t epNum);
uint32_t USBD_EP_ReadTxCnt(USBD_T *usbx, uint8_t epNum);
uint32_t USBD_EP_ReadRxCnt(USBD_T *usbx, uint8_t epNum);
void USBD_EP_SetTxAddr(USBD_T *usbx, uint8_t epNum, uint16_t addr);
void USBD_EP_SetRxAddr(USBD_T *usbx, uint8_t epNum, uint16_t addr);
void USBD_EP_SetTxCnt(USBD_T *usbx, uint8_t epNum, uint32_t cnt);
void USBD_EP_SetRxCnt(USBD_T *usbx, uint8_t epNum, uint32_t cnt);
void USBD_EP_SetBuffer0RxCnt(USBD_T *usbx, uint8_t epNum, uint32_t cnt);
void USBD_EP_SetBuffer0TxCnt(USBD_T *usbx, uint8_t epNum, uint32_t cnt);
void USBD_EP_ResetRxFlag(USBD_T *usbx, uint8_t epNum);
void USBD_EP_ResetTxFlag(USBD_T *usbx, uint8_t epNum);
uint8_t USBD_EP_ReadDir(USBD_T *usbx);
uint8_t USBD_EP_ReadID(USBD_T *usbx);
void USBD_SetForceReset(USBD_T *usbx);
void USBD_ResetForceReset(USBD_T *usbx);
void USBD_SetForceSuspend(USBD_T *usbx);
void USBD_ResetForceSuspend(USBD_T *usbx);
void USBD_SetLowerPowerMode(USBD_T *usbx);
void USBD_ResetLowerPowerMode(USBD_T *usbx);
void USBD_SetDeviceAddr(USBD_T *usbx, uint8_t address);

void USBD_EnableInterrupt(USBD_T *usbx, uint32_t interrupt);
void USBD_DisableInterrupt(USBD_T *usbx, uint32_t interrupt);
uint8_t USBD_ReadIntFlag(USBD_T *usbx, uint32_t interrupt);
void USBD_ClearIntFlag(USBD_T *usbx, uint32_t interrupt);

/**@} end of group USB_Functions*/
/**@} end of group USB_Driver*/

#endif /* defined (USB_DEVICE) */
#endif /* USBD */

/**@} end of group APM32F0xx_StdPeriphDriver*/

#endif
